Question

How is the Bohr Model of the atom different from the

Quantum theory model?
All of these.
Bohr Atomic model has electrons that can jump from one orbit to another,
while electrons in the quantum theory atom exist in particular regions in the
electron cloud.
Bohr Atomic model has orbits, while quantum theory atom has orbitals.
Bohr Atomic model and quantum theory model both say that the electron
gets excited and goes to a higher energy state.

Answer 1

The Bohr Model and the Quantum Theory Model have differences in terms of electron orbits or orbitals and the way electron movements are described.

Step-by-step explanation:

The Bohr Model of the atom and the Quantum Theory Model are both models used to describe the structure of atoms, but they have some key differences.

The Bohr Model proposes that electrons orbit the nucleus in specific energy levels or shells. It suggests that electrons can jump from one orbit to another, emitting or absorbing energy in the process.

The Quantum Theory Model, on the other hand, views electrons as existing in specific regions of space called orbitals, which represent the probability of finding an electron within a certain area around the nucleus. Electron movements in this model are described by a wave function, rather than definite orbits like in the Bohr Model.

Both models acknowledge that electrons can become excited and move to higher energy states by absorbing energy.

Learn more about Bohr Model vs Quantum Theory Model